Development and Performance Evaluation of Manually Operated Star Fruit Slicer

Authors

  • Gitanjali Behera Department of Food and Process Engineering, NIT, Rourkela Author
  • Kalpana Rayaguru Department of Agril Processing and Food Engineering, College of Agricultural Engineering and Technology, OUAT, Bhubaneswar – 751003. Author

DOI:

https://doi.org/10.52151/jae2016533.1606

Keywords:

Star fruit, slicer, capacity, slicing efficiency, standard slice yield

Abstract

Star fruit (Averrhoa carambola) is one of the underutilized tropical fruits, which contains large amount of therapeutic components in form of antioxidants, total phenolics, vitamin-C, minerals and dietary fibres. For commercial value-addition of the fruit, a hand-operated star fruit slicer suitable for small-scale processing was designed and developed. The slicer was evaluated for three fruit-slice thickness. The capacity, efficiency, loss percentage and standard slice percentage of the slicer varied with thickness. The slicer had slicing efficiency of 86 to 96% with effective capacity of about 30.18 - 7.46 kg.h-1 against 31 to 34% and 6.9 - 1.61 kg.h-1 by manual operation. The loss percentage and standard slice yield percentages were 9.53% to 15.11%, 83% to 91%, respectively, for mechanical; and 9.21% to 10.45%, 26% to 31%, respectively, for manual slicing. The results suggested that the developed star fruit slicer is simple, economical and more efficient with higher capacity than manual slicing for the range of fruit slice thickness required by small-scale processing units.

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References

Adesina A O; Adedeji W O; Adelana S O. 2015. Design, development and performance evaluation of plantain slicing machine. Int. J. Emerging Trends Eng. Develop., 1(5), 204-216.

Kalaivani N. 2012. Design, development and performance evaluation of plantain slicer. Agric. Mech. Asia Afr. Latin Am., 43(2), 79-83.

Kamaldeen O S; Awagu E F. 2013. Design and development of a tomato manual slicing machine. Int. J. Eng. Technol., 2(1), 57-62.

Khurmi R S. 1993. Strength of Materials. XXI Ed., Chand and Co (P) Ltd, New Delhi, pp: 991.

Lim Y S; Lee S T. 2013. In vitro antioxidant capacities of star fruit (Averrhoa carambola), an underutilized tropical fruit. J. Biol., 1(1), 21-24.

Manda H; Vyas K; Pandya A; Singhal G. 2012. A complete review onAverrhoa carambola.World J. Pharm. Sci., 1, 17-33.

Narain N; Bora P S; Holschuh H J; Vasconcelos M A Da S. 2001. Physical and chemical composition of star fruit (Averrhoa carambola L.) at three stages of maturity. Ciencia y Tecnologia Alimentaria, 3(3), 144-148.

Onu L I; Okafor G I. 2003. Effect of physical and chemical factor variations on the efficiency of mechanical slicing of Nigerian ginger (Zingiberofficinale Rose). J. Food Eng., 56, 43- 47.

Raji O A; Igbeka J C. 1994. Pedal operated chipping and slicing machine for tubers. J. Agric. Eng. Technol., 2, 90-99.

Samaila R S; Olowonibi M M; Adgidzi D. 2008. Design, construction and performance evaluation of a manually operated vegetable slicer. J. Agric. Eng. Technol, 16(1), 48-52.

Shui G; Leong L P. 2004. Analysis of polyphenolic antioxidants in star fruit using liquid chromatography and mass spectrometry. J. Chromatogr A., 1022(1), 67-75.

Shui G; Leong L P. 2006. Residue from star fruit as valuable source for functional food ingredients and antioxidant nutraceuticals. Food Chem., 97(2), 277-284.

Wilson III C W. 1990. Carambola and Bilinbi. In: Nagy S, Shaw PE, Wardowsky FS (Eds.), Fruits of Tropical and Subtropical Origin: Composition, Properties and Uses. Florida Science Source, Inc., Lake Alfred, 277–301.

Published

2016-09-30

Issue

Section

Regular Issue

How to Cite

Gitanjali Behera, & Kalpana Rayaguru. (2016). Development and Performance Evaluation of Manually Operated Star Fruit Slicer. Journal of Agricultural Engineering (India), 53(3), 10-18. https://doi.org/10.52151/jae2016533.1606